CS243437B1 - A method of dispensing an alkaline earth desulphurizing additive in powdered furnace hearths - Google Patents

Abstract

The solution concerns a method of dosing a desulfurization additive into powder furnaces of boilers. The essence is that the additive for binding sulfur from the fuel is fed in a stoichiometric excess both into the coal powder and into the associated fluidized bed furnace, created as an auxiliary furnace of a steam boiler, the thermal output of which is from 10 to 50% of the thermal output of the main powder furnace, while the additive is fed into the associated auxiliary fluidized bed furnace in an amount corresponding to the ash content of the fuel with the additive in dry matter from 20 to 75%. The solution can be used in particular in the modification of large power plant units for the use of coal with a substantially lower calorific value than their guaranteed fuel, and while simultaneously enabling flue gas desulfurization by the dry additive method.

Description

The invention relates to a method of dosing an alkaline earth desulfurization additive in a pulverized steam boiler and solves the problem of improving the supply of the additive to pulverized boiler fires.

It is known to improve the ignitability of coal powder due to an additive which during its heating to the temperature in the powder furnace undergoes endothermic reactions, such as calcination of limestone, which take up a considerable amount of heat required at this stage of the combustion process for thermal fuel preparation. According to the present invention, all the additive required to bind the sulfur in the fuel supplied to the pulverized furnace is fed to the auxiliary fluidized bed associated with the combustion chamber of the pulverized furnace. Advantageously, the ability of the fluidized bed to burn stably high ash ash loading with a high admixture of baiast, i.e. an additive, has been utilized.

If the fuel itself is already highly balestic, eg low-heat, high-ash coal with a calorific value below 10 MJ kg ¹ , the auxiliary fluidized bed cannot be loaded with all the additive required for desulfurization of the flue gases from all fuel introduced into the combustion chamber. the fireplace would stop.

The disadvantage of the process according to the invention is that the alkali earth additive for the binding of sulfur from the fuel is supplied in stoichiometric excess, both to the coal powder and to the associated fluidized bed, forming an auxiliary hearth of the steam boiler having a heat output of 10 up to 50 ° h of the heat output of the main powder hearth, the additive being fed to the associated auxiliary hearth in an amount generating ash of fuels with the additive in the dry matter of 20 to 75%.

In this case, the associated auxiliary fluidized bed is dimensioned so that its effect, i.e. the thermal energy generated, stabilizes the front of the ignition in the main pulverized furnace, the coal powder of which may also be loaded by the addition of an additive.

The additive is additionally supplied to the auxiliary auxiliary fluidized bed only in such an amount that the stable combustion process is not endangered, i.e. the ash content of the fuel and the additive in the dry matter does not exceed 75%.

The main advantage is the possibility of converting large boiler units of power plant units into the combustion of worse types of coal while ensuring the desulphurisation of flue gases. An advantage of the method according to the invention is also influencing the flame temperature of the powder burners by the addition of an additive so that its overheating does not cause its destabilization.

If the additive is fed to the pulverized and fluidized furnace together with the fuel, a simpler construction of the metering device without the need for a transport medium is sufficient.

Example 1

Brown low-caloric coal with a calorific value of 7.1 MJ kg ^-1 is burned with an ash content in dry matter A ^d = 60% and a sulfur content of 1%. At a stoichiometric excess of additive of 1.5, 5 wt. additives, finely ground limestone.

The associated fluid reactor covers 20% of the heat output of the fireplace. If it were to cover the consumption of the additive alone, then a mass of 25% by weight of coal would be fed into the fluidized bed, the additives and the calorific value of the mixture would drop to 5 MJ, which would be at the edge of self-supporting combustion.

If the additive is distributed evenly throughout the coal, the calorific value of the coal mixture to both the fluidized bed reactor and the powder burners will decrease to 6.6 MJ kg ^-1 , which will ensure stable combustion in the fluidized bed and thereby stabilize the combustion throughout the powder bed.

Example 2

Lignite is burnt with a net calorific value of 7.11 MJ kg with an ash content in dry matter A ¹ '= 50% and a sulfur content of 2%.

The associated fluidized hearth covers 30% of the basic power of the powder hearth. The additive will be 10% by weight. Protože.fluidní fireplace dried lignite is supplied with a calorific value of 10.12 MJ kg ^- 'can be metered into the furnace to 20% weight of the fuel additive, whereby the heating value of the mixture is reduced not 7.73 MJ kg ^-1, again to ensure stable combustion in the assigned to the fluidized bed. 5.71 wt.% Was then added to the fuel to be combusted in the powder burners. additives and weight of fuel.

In particular, the invention can be used in the treatment of large power generating units for the use of coal with a substantially lower calorific value than their guarantee fuel, while allowing the flue gas desulfurization by a dry additive method.

Claims (2)

SUBJECT OF THE INVENTION 1. Method for dosing an alkaline earth desulphurizing additive in powder furnaces of boilers, characterized in that the sulfur binding additive is supplied in stoichiometric excess both to the coal powder and to the associated fluidized bed, forming an auxiliary furnace of a steam boiler whose heat output is from 10 to 50% of the heat output of the main powder hearth, wherein the additive is supplied to the associated fluidized auxiliary hearth in an amount generating ash content of the fuel and the additive in the dry matter of 20 to 75%. ² 2. Method according to claim 1, characterized in that the additive is fed to the pulverized and fluidized furnace together with the fuel.